Anti-vibration cage for data storage device

Title: Anti-vibration cage for data storage device.Abstract: An anti-vibration cage (10) for data storage device, includes at least a first securing piece (161) with a first pivot hole (1611) defined therein; at least a second securing piece (163) with a second pivot hole (1631) defined therein, and at least a rotatable damping member (20). A gap (1633) is formed in the second securing piece and communicated with the second pivot hole. The damping member includes a damping portion (25) configured to dampen vibration for the data storage device and a shaft (22) inserted through the damping portion. The shaft has a first end (21) and a second end (23) protruding out from the damping portion respectively. The first end of the shaft is rotatably engaged in the first pivot hole. The second end of the shaft is rotatably engaged in the second pivot hole and releasable from the gap. ...

This application is cross-referenced to a pending U.S. patent application Ser. No. 11/309,240, filed on 2006, Jul. 18, and assigned to the same assignee. The above-identified application is incorporated herein by reference.

BACKGROUND

1. Technical Field

The present invention relates to anti-vibration cages for data storage devices, and more particularly to an anti-vibration cage with detachable damping members.

2. General Background

In a conventional server or computer system, a plurality of data storage devices is usually provided. When the data storage devices are at work, vibration is generated and may damage the data storage devices. In order to reduce the damage to the data storage devices, damping members are often provided.

For example, a mounting apparatus for data storage devices includes an exterior cage and an interior case for receiving data storage devices therein. The exterior cage includes several damping members rotatably attached to sidewalls thereof. Each of the damping members includes a damping portion made of vibration absorbing material, and a shaft inserted through the damping portion along a radial direction. When the interior cage, together with data storage devices, is pushed into the exterior cage, sidewalls of the interior cage touch the damping portions of the damping members, and drive the damping portions to rotate about the shafts to minimize friction between the damping portions and the interior cage and allow convenient installation of the interior cage. However, once the shafts of the damping members are attached to the exterior cage, they are difficult to remove.

What is needed, therefore, is an anti-vibration cage with conveniently detachable damping members for dampening vibration of data storage devices.

SUMMARY

An anti-vibration cage for a data storage device, includes at least a first securing piece with a first pivot hole defined therein; at least a second securing piece with a second pivot hole defined therein, and at least a rotatable damping member. A gap is formed in the second securing piece communicating with the second pivot hole. The damping member includes a damping portion configured to dampen vibration for the data storage device and a shaft inserted through the damping portion. Ends of the shaft protrude from ends of the damping portion respectively, to rotatably engage in the first and second pivot holes and are passable through the gap so as to facilitate assembly or disassembly of the dampening member to or from the anti-vibration cage.

Other advantages and novel features will be drawn from the following detailed description of preferred embodiments with attached drawings, in which:

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an isometric view of an anti-vibration cage with detachable damping members for data storage devices in accordance with a preferred embodiment of the present invention;

FIG. 2 is a semi-exploded view of FIG. 1, with two of the damping members detached from the anti-vibration cage; and

FIG. 3 is similar to FIG. 2, showing the two detached damping members being engaged with the disk drive cage.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

Referring to FIG. 1, an anti-vibration cage 10 for data storage devices, includes a plurality of damping members 20 rotatably attached to enclosure panels thereof. Only the damping members 20 attached to adjacent enclosure panels 12, 14 of the anti-vibration cage 10 are shown in FIG. 1.

Referring to FIG. 2, a plurality of rectangular openings 16 are respectively defined in the panels 12, 14. A pair of securing pieces 161, 163 extends perpendicularly outward from each of the panels 12, 14 from opposite sides of each rectangular opening 16 respectively. A width of each of the securing pieces 161, 163 is less than that of the rectangular opening 16. A first pivot hole 1611 is defined in the securing piece 161, and a second pivot hole 1631 is defined in the securing piece 163. The securing piece 163 defines a gap 1633 communicating with the second pivot hole 1631 therein at a side edge thereof.

Each damping member 20 includes a cylindrical damping portion 25, and a shaft 22 inserted through an axial through hole (not shown) of the damping portion 25. The damping portion 25 of the damping member 20 is made from resilient material, which is capable of dampening vibration, such as rubber. The shaft 22 is made from rigid material, such as steel. A first end 21 and a second end 23 of the shaft 22 protrude out from opposite ends of the damping portion 25 respectively. The second end 23 of the shaft 22 includes a first cap 231, a neck 233, and a second cap 235. The neck 233 is connected between the first cap 231 and the second cap 235. The diameter of the first or second cap 231, 235 is greater than the diameter of the second pivot hole 1631 of the securing piece 163 of the anti-vibration cage 10. The diameter of the neck 233 is less than that of the second pivot hole 1631 and a little greater than a natural width of the gap 1633 of the securing piece 163. The diameter of the first end 21 of the shaft 22 is less than that of the first pivot hole 1611.

Referring also to FIG. 3, in assembling each of the damping members 20, the first end 21 of the shaft 22 of the damping member 20 is inserted into the first pivot hole 1611 of the securing piece 161. Then the shaft 22 is moved to a perpendicular position with respect to the securing pieces 161, 163 where the neck 233 of the second end 23 is engaged in the second pivot hole 1631, from a slanted position with respect to securing pieces 161, 163 where the neck 233 is engaged to the gap 1633 and resiliently expands the gap 1633 (See FIG. 3). The gap 1633 of the securing piece 163 returns to its natural width after the neck 233 is fully engaged into the second pivot hole 1631 so that the neck 233 is prevented from accidentally escaping from the second pivot hole 1631 via the gap 1633. Since the first and second caps 231, 235 are larger than the second pivot hole 163, the damping member 20 is reliably and rotatably attached to the securing pieces 161, 163.

In disassembling each of the damping members 20, the second end 23 of the shaft 22 is moved to expand the gap 1633 so that the neck 233 of the second end 23 of the shaft 22 of the damping member 20 is enabled to disengage from the second pivot hole 163 via the gap 1633. Then the first end 21 of the shaft 22 is taken out from the first pivot hole 1611 of the securing piece 161. Thus, the damping member 20 is disassembled from the disk drive bracket 10.

When an interior disk drive cage (not labeled) receiving data storage devices therein is slid into or out from the anti-vibration cage 10, the damping members 20 rotating about the shafts 22 thereof to decrease friction between the interior disk drive cage and the anti-vibration cage 10 and facilitate the interior disk drive cage sliding along the anti-vibration cage 10.

In use, when the interior disk drive cage collides with the anti-vibration cage 10 due to vibration of data storage devices, the damping portions 25 of the damping members 20 touch the interior disk drive cage and dampen the vibration. Thus, data storage devices in the anti-vibration cage 10 are protected from vibration.

It is to be understood, however, that even though numerous characteristics and advantages have been set forth in the foregoing description of preferred embodiments, together with details of the structures and functions of the preferred embodiments, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.

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